Systems and Methods for Evaluating, Classifying and Predicting Game Trends Using Clustered Pattern Recognition

ABSTRACT

Features of electronically embodied games are logically categorized, analyzed, and compared. Features are preferably organized according to a hierarchical classification scheme, according to a classification scheme that is not strictly tautological. All suitable feature sets are contemplated, including sets corresponding to characteristics of personifications of players and non-players, types and/or uses of game space, methods of rewarding a player, etc. In other aspects comparisons are made between an evaluation game and one or more sets of historically available games. Such sets can be grouped by genre and the number of games in such sets can range anywhere from a single game to hundreds of games, or more. Reporting and guidance can include providing a risk assessment score or other risk analysis, feature assessment (prevalence), market placement, business model analysis, dynamic trend analysis, clustered pattern recognition, and image analysis.

This application is a divisional application of U.S. patent application Ser. No. 13/290,699 filed Nov. 7, 2011, which is a divisional application of U.S. patent application Ser. No. 12/495,965 filed Jul. 1, 2009, which is a continuation of U.S. patent application Ser. No. 11/734,998 filed on Apr. 13, 2007, now issued as U.S. Pat. No. 7,580,853, which claims priority to U.S. Provisional Application Nos. 60/792,915 and 60/792,916, both filed on Apr. 17, 2006.

FIELD OF THE INVENTION

The field of the invention is electronic games.

BACKGROUND

All games, including video games, comprise sets of rules. Such rule sets define everything from the visuals of the environment, to the means by which a person or object moves through such an environment, manipulates that object or environment and, eventually, completes the game.

Significantly, no system has been developed for logically analyzing and comparing video games on a feature by feature basis. In fact, such analysis has not even been possible because a standard nomenclature for features of video game features has not been established. It is true that games are routinely classified into genres, (e.g., Action, Fighting, Role-playing, Massively Multiplayer Online, Platform, Simulation, Sports, and Strategy), and are also routinely classified according to their age and skill levels. But such classifications are subjective, and there appears to be no rigorous logical system for mapping between feature sets and game classifications.

The closest prior art seems to be U.S. Publication No.: 2003/0065978 (parameterizing errors of a software product already released to the public), U.S. Pat. No. 6,937,913 (parameterizing features of products that customers say they want or need), and U.S. Pat. No. 6,826,541 (applying a heuristic to criteria identifiers of products). These and all other extrinsic materials discussed herein are incorporated by reference in their entirety. Where a definition or use of a term in an incorporated reference is inconsistent or contrary to the definition of that term provided herein, the definition of that term provided herein applies and the definition of that term in the reference does not apply.

Many problems in the video game design process result from this absence of systems and methods for logically analyzing and comparing video games on a feature by feature basis. For example, game production is often hindered because genre-standard features are often forgotten or are remembered late in the design process, only to be hastily implemented at the last minute. On the flip side of the coin, non-standard features are often given undo emphasis and allotted a disproportionate amount of development resources. Additionally, without a standard for comparison, different departments within development studios and publishing houses can have difficulty even agreeing on what the core features of their video game should be, or deciding what percent of their development effort should be spent on innovation as opposed to delivering on core genre features.

The problems extend to the investment side of gaming as well. Most game developers who are seeking funding are also in a difficult position when attempting to convince investors that they have a product which can be successful in the marketplace. Many games which could have been very successful never make it off the ground because the studios simply can't sell their ideas effectively. From the investor's perspective, there is a total lack of tools and services which with the risk of the investment can be assessed. For the most part, investors must rely on experience, instinct, intuition and a great deal of luck.

Thus, there is still a need for systems and methods in which video and other electronically embodied games can be analyzed and compared according to a features, with appropriate guidance provided to interested parties.

SUMMARY OF THE INVENTION

According to the present invention, features of audiovisual and other electronically embodied games are logically categorized, analyzed, and compared. Guidance is then preferably provided to interested parties, including for example development studios, publishers, marketing people, and investors.

In preferred embodiments, the features are organized according to a hierarchical classification scheme that is not strictly tautological. All suitable feature sets are contemplated, including, for example, feature sets corresponding to characteristics of personifications of players and non-players, types and/or uses of game space, and methods of rewarding a player. Relatively smaller features sets of at least 25 or 50 features are contemplated, but larger feature sets, such are 100, 250, or even 1,000 members, are considered preferable because they provide a greater level of granularity to the analysis.

In other aspects of preferred embodiments, comparisons can be made between an evaluation game and one or more sets of historically available games. Such sets can be grouped by genre and the number of games in such sets can range anywhere from a single game to hundreds of games, or more. Such set can also include successful and non-successful games, or combinations of these. Comparisons can be especially useful where an evaluation game has not yet been widely marketed, which is defined herein to mean games in which no more than 5,000 copies have been sold, excluding pre-sales, evaluations, contests and beta tests.

All commercial aspects of guidance are contemplated, including for example, providing expectations with respect to income, sales volume, one or more temporally related price points, and number of subscriptions. Guidance can additionally or alternatively include one or more of providing a risk assessment score or other risk analysis, feature assessment (prevalence), market placement, business model analysis, dynamic trend analysis, clustered pattern recognition, and image analysis.

Various objects, features, aspects and advantages of the present invention will become more apparent from the following detailed description of preferred embodiments of the invention, along with the accompanying drawings in which like numerals represent like components.

BRIEF DESCRIPTION OF THE DRAWING

FIG. 1 is a schematic of a prior art system used to rate aspects of video games

FIG. 2 is a schematic showing analysis of existing games according to a classification system, and analysis and guidance with respect to an evaluation game.

FIG. 3A is a tree hierarchy of a portion of an exemplary classification system.

FIG. 3B is a more detailed representation of a portion of the tree hierarchy of FIG. 3A.

FIG. 4 is a portion of an exemplary set of features derived from to a hypothetical evaluation game.

FIG. 5 is a high level perspective of steps involved in an exemplary analysis of the set of features of FIG. 4.

FIGS. 6A-6I are exemplary reports that could be generated from the analysis of FIG. 5.

FIG. 7 is a schematic of providing guidance from the reports of FIGS. 6A-6I.

FIGS. 8A-8G are sample reports derived from analysis of historical games.

DETAILED DESCRIPTION

In FIG. 1, the prior art system 100 used to rate aspects of video games generally depicts the games 110A, 110B, a rating system 120, result sets 130A, 130B, feedback loop 162 and feedback recipients 190.

Games 110A, 110B can be any electronically embodied games, which term is used herein to mean games that are, or are intended to be, marketed or used at least in part in an electronic format. In common vernacular, such games are traditionally described in terms of the hardware used to access them. This includes, for example, video games which would be games played on a game console (e.g. a PlayStation™, a Wii™, an Xbox™), computer games which are games played on a personal computer, handheld games which are games played on a hand-held gaming device other than a console (e.g. a GameBoy™, a PSP™, Nintendo™ DS™), mobile games which are games played on cell phones and other small mobile devices, web based games, which are games played through or with the aid of a web browser (e.g, Microsoft's Internet Explorer™, and Mozilla™ Firefox™), and arcade games which are games played on a large, stationary kiosk. It should be appreciated that the term “electronically embodied games” also includes games that include real-world aspects, including for example, 3-dimensional tokens, RFID and other cards, and so forth.

Rating system 120 includes any conventionally existing systems for rating electronically embodied games, whether such systems are intended for marketing or any other purposes. Exemplary conventional rating systems are ESRB, genre, platform (what hardware is the game played on,) hardware specifications (what is the minimum graphics card or processor speed that is needed to play the game), publisher, developer, internet connectivity (whether a player needs to be connected to the internet to play the game), multiplayer (whether more than 1 person play the game at the same time), etc. All of these known rating systems are quite simplistic compared with some of the inventive ratings systems described herein.

Results sets 130A, 130B are produced by the conventional rating systems 120. Results sets 130A can be used by developers, publishers, marketing personnel, investors and other recipients 190 for their specific business purposes, and other results sets 130B are used by consumers, parents, and others for consumer purposes. Such results sets 130A, 130B are entirely conventional. For example, several websites provide basic overviews of game ratings (http://gamespy.com/, http://www.gamespot.com/, and http://www.ign.com/), usually in the form of reviews of the games (e.g. “we gave it 4 of 5 stars”). Conventional ratings can also take the from of review articles, as can be seen at http://ps2.gamespy.com/playstation-2/god-of-war/, http://www.gamespot.com/ps2/action/godofwar/index.html?q=god%20of%20war, and http://ps2.ign.com/objects/661/661,321.html. Simplistic platform and genre designations are also conventional, and are generally used as search filters, for example. to show only action games for the PlayStation 3. Finally, results sets are sometimes used by groups such as the ESA (Entertainment Software Association, http://www.theesa.com/) to analyze genre and market share, but these reports are not game specific. They are written about the state of the industry or the state of the genre, as opposed to analysis of specific games.

Feedback 162 to developers and other has usually been limited to individual research or canned reports. DFC Intelligence (http://www.dfcint.com/), for example, produces reports from time to time that provide analysis as to issues facing various segments of the gaming market. See http://www.gamasupra.com/php-bin/news_index.php?story=13310.

Feedback recipients 190 are contemplated herein to include groups who can afford to do or pay for basic research. These groups involve game developers (development studios), game publishers (publishers), video game marketing and PR firms (marketing and PR), lawyers, and, recently, investment groups/fund who have been seeing video games as an emerging market worth investing in.

In FIG. 2, a system 200 generally comprises historically available games 210A, an evaluation game 210B, a sophisticated classification system 220, results sets 230A,B, analysis 240, reports 250, 270, and guidance 260 to feedback recipients 290.

Historically available games 210A could be the same as games 110A, but could also be a subset or superset of games 110A. There might be advantages, for example, in marketing different analyses 240 and/or reports 250, 270 at different prices, depending upon the number of historically available games considered. It is contemplated that a specific evaluation game (or set of games) could be analyzed a large set of 20, 50, 100 or even more historically available games.

Evaluation game 210B would be any game being analyzed. It is contemplated that in most instances the evaluation game 210B would be submitted by someone eliciting analysis and reporting. But in other instances a game might be evaluated for the purposes of marketing a service. Thus, some reports might be generated as a teaser to the publisher or developer of a prospective or marketed game, to generate interest in purchasing additional analysis or reports.

The classification system 220 preferably goes far beyond collecting a few features of a small set of games, and instead focuses on collecting a feature set that encompasses the breadth of all electronically games. Preferred embodiments include both broad categories (what environments does the game take place in, what is the mood and setting, what are elimination conditions for personifications), and more specific categories such as the appearance customization choices that a game player can make for their personification. In general, choice as to inclusion in the classification system revolves around deciding what might be useful knowledge for someone developing, publishing, marketing or investing in one or more game, companies in the games industry, or even companies in a related industry. It is contemplated that the classification system could change over time, possibly because the classification is insufficiently detailed (e.g., we find that we need to include hair length as well as hair style), or because a feature turns out to be irrelevant (i.e. nobody cares about hair color).

Preferred classification systems are also contemplated that go beyond merely the presence of absence of a feature. Such systems can advantageously classify the style of implementation and frequency/quantity of such features. For example, instead of merely classifying a game as having a given level of violence, preferred classification systems could qualify and/or quantify the instances of violence. Still further, systems are contemplated that classify how features interact with each other. An example would be how violence relates to weapons, use of automobiles or other transportation vehicles, or perhaps gender.

Especially preferred embodiments are hierarchical. For example, various appearance customization choices (gender, body type, clothing selection, facial appearance, hair appearance, etc) can be further broken down into attributes of that choice, (e.g. for hair appearance, one could advantageously classify the quantity and types of hairstyles available as well as the range of color choices available). A current embodiment has 81 high level classifications, but could have a greater or lesser number (e.g. 50-100) of such classifications. Embodiments are contemplated that have at least 25, at least 50, at least 100, at least 260, at least 1000 or even at least 10,000 members. Unless the context dictates to the contrary, all ranges are inclusive of their endpoints.

Especially preferred embodiments are also not strictly tautological. Thus, a given feature could easily be represented in more than one classification. For example, red hair color of a character could be classified under personal characteristics of the characters, and it could also be classified as colors used prominently in the game. Similarly, there might be sub-classifications for red, blonde, and brown hair, but no separate classification for other.

Analysis 240 is predominantly or entirely mathematical, using regression and/or other appropriate analytical tools. Analysis can compare success or other aspects of games against their own features, or against other sets of games. In the latter case, analysis is preferably made of an evaluation game against one or more relatively large sets of historically available electronically embodied games. Such sets can advantageously number at least 10, 25, 50, or 100 per genre grouping, which can include both successful and non-successful games. Of particular interest are situations in which the evaluation game has not yet been widely marketed, which is defined herein to mean games in which no more than 5,000 copies have been sold, excluding pre-sells, evaluations, contests and beta tests.

Reports 250 can be generated using the analysis 240. Such reports can either be delivered to one or more of the feedback recipients, with or without guidance 260 in interpreting the reports. Exemplary reports are shown and described herein, and include expected effects of including or excluding particular features in a game, product uniqueness, and genre suitability.

Guidance 260 can include any useful information, such as providing expectations with respect to income, sales volume, one or more temporally related price points, and number of subscriptions. Guidance can additionally or alternatively include one or more of providing a risk assessment score or other risk analysis, feature assessment (prevalence, suitability, etc), market placement, business model analysis, dynamic trend analysis, clustered pattern recognition, and image analysis.

Reports 270 can be generated directly from the result sets of historically available games 230A. These reports do not compare a single game (evaluation game) against large groupings of historically available games, but instead compare large groupings of historically available games against each other. Exemplary reports 270 include video game trends, forecasting, genre analysis, feature analysis, etc.

FIG. 3A is a tree hierarchy of a portion of an exemplary classification system. In one aspect of preferred embodiments, the features are organized according to a hierarchical classification scheme, and more preferably according to a classification scheme that is not strictly tautological. Larger feature sets, at least 25, 50, 100, 260, or even 1,000 members are generally considered preferable to smaller feature sets.

FIG. 3B is a more detailed representation of a portion (not shown) of the tree hierarchy of FIG. 3A. All suitable feature sets are contemplated, including for example feature sets including subsets corresponding to characteristics of a personification, types and/or uses of game space, and methods of rewarding a player.

FIG. 4 is a portion of an exemplary set of features derived from a hypothetical evaluation game. To facilitate the analysis 240 and reporting 250, 270, information from evaluation games is preferably organized using the same hierarchical classification system as used for historically available games.

FIG. 5 is a high level perspective of steps involved in an exemplary analysis 240. In this particular example, the evaluation result set 230B is compared against the historical result set 230A to produce three categories of results: (1) features present only in the evaluation game 503; (2) features present in both the evaluation game and the historical data 504; and (3) features present only in the historical data 505. Once distinct sets of data have been identified 503,504,505, a secondary analysis of each result set is done against a number of criteria 506, depending on the final result sets desired to be created. Advantageously, this could include prevalence, risk, novelty, sales or cluster association. Most preferably it would include some or all of these in conjunction with one another for the most detailed reporting needs. After the secondary analysis 506 has been performed numerous sub result sets are produced which contain the specific data desired from the analysis 507. This data 507 is then used to generate reports 250, 270, or perhaps other reports.

FIGS. 6A-6C are exemplary reports that could be generated from the analysis of FIG. 5.

FIG. 6A depicts an exemplary Feature Assessment (prevalence) report. Feature assessment reports are used to determine the prevalence of features in a genre or large grouping of games (as assessed from historically available games). Such reports can be used on their own, or to provide guidance for a specific game (for example, the report might show a game designer that he is missing three features that greater than eighty percent of his market competitors have, or that he implemented these features in a way that is not in accordance with market expectations. Feature assessment can also be used to determine such things as common video game features (for example, these are the 100 features that all games grossing greater than $1,000,000 had), to determine base genre features (for example, these are the 40 features that all shooter genre games grossing greater than $1,000,000 had), to determine unsuitable base genre features (for example, these are the 40 features that all shooter genre games grossing less than $200,000 had), to assess standard feature sets (for example, these are all the features of game A which X percent of other games in the same genre also had), or to assess unique features or features not commonly used by other games of the genre (for example, these are the features of game B which only Y percent of the other games in the same genre also had).

FIG. 6B provides an exemplary Risk Assessment report, in this case showing numeric risk assessment scores. Risk assessment scores are based on individual game features, or groupings/sets of such features, as well as the implementation of the feature or feature set in a particular game. For example, risk assessment scores can be a function of occurrence frequency and quantity of a given feature or feature set, and/or duration of the feature or feature set when compared to one or more sets of historically available games. The sets can preferably include any desired grouping, including for example all games in an industry, a particular platform or genre, or a subset filtered according to one or more parameters (for example, only compared to all games that grosses >$ 1,000,000 dollars). These basic risk assessment scores can be supplemented by more specific risk assessment scores on a risk assessment index.

FIG. 6C shows a portion of an exemplary Market Placement report. Here, standard genre features and feature sets can be derived through analysis of historically available games.

FIG. 6D shows a portion of an exemplary Business Model Analysis report, which includes recommended and non-recommended game features. By analyzing specific evaluation games, the features of these games can be assessed to make sure that they fit the standard features of a target market. Additionally, this feature/business model type of analysis allows game designers and publishers to shift their business model to match the business model of other successful games with similar feature sets. Alternately, games can be designed to have their features match common features of other successful games of the business model they are pursuing and avoid features used by unsuccessful games of the business model they are pursuing.

FIG. 6E shows a portion of an exemplary Dynamic Trend Analysis report. By analyzing the features and sets of features of video games in accordance with their release dates, past trends in features and their prevalence can be determined. Through past trend analysis, new trends can be predicted. These trends can be filtered by one or more specific features such video game genre, video game gross sales, etc. to provide more focused trend analysis (for example, in 2000, 55% of shooter games the grossed greater than $20 million dollars had feature X, while in 2001, the same feature showed up in 75% of all shooter games grossing greater than $20 million).

FIG. 6F shows a portion of an exemplary Clustered Pattern Recognition report; By analysis of video game features and the genres they fall into, new genres of games and new types of features can be identified based on scatter graphs and other forms of pattern recognition. Cloud reports such as FIG. 6F visually represent either: every historical game and its' overall position in relation to specified criteria (for example, Genres); or every feature and its' overall position in relation to specified criteria. A cloud graph may have as few as 2 axis end points and as many as 1000, but most preferably between 4 and 10. Cloud graphs are especially useful in visually identifying key elements, including for example:

-   -   Those games or features which are within a cloud, and therefore         can be clearly identified as belonging to a specific cloud         group;     -   Those games or features which are not within any specific cloud         at all, and are therefore breakouts from any specific grouping;     -   Those games or features which are at the head of a cloud and         could be part of a new trend to expand the cloud in a specific         direction;     -   Those games or features which are at the tail of a cloud and         could soon no longer be part of the main cloud.

It is also possible to graph a Cloud Report over time to generate multiple versions of the same cloud report but using data from segmented time periods to see how the clouds change over that period of time and to therefore predict in what direction the clouds may move in the future. By visually comparing the historical data and with a proposed game design, the cloud report can quickly identify positioning of the proposed game and its features.

FIG. 6G shows a portion of an exemplary Image Analysis Report. By analyzing pixels of an evaluation image, advantageously as promotional images related to the game, but most preferably as art used as part of the packaging of the game, including relationships between adjacent and nearby pixels and relationships of a given pixel or group of pixels as compared to the totality of the image as a whole; data on the evaluation image can be stored and compared with image data related to other historically available images. The data on the evaluation image and historically available images can also be compared with other sets of feature data related to the game that the image represented, advantageously including success or categorizing data, most preferably genre, ESRB ratings or sales, to form patterns and relationships which can identify relationships between image properties and game success or marketing targets.

FIG. 6H shows a portion of an exemplary Feature vs. Game Income report. Here, features can be matched against game performance, as expressed by gross game income to assist determining feature suitability and game risk. Reports like this can be filtered by other features, such as game genre or release date. For example, the feature ESRB rating, filtered by game genre, could be compared against game income, showing that Teen ESRB rated shooter games are more consistent in their gross income, where Mature ESRB rated shooter games skew higher and lower on their gross incoming, including more breakaway titles but also more flops.

FIG. 6I shows a portion of an exemplary Feature Value By Genre report. Here, genres having individual features (or groups of features) are graphed against income and game release date. By analyzing individual features and sets of features of a significant quantity (5, 10, 20, 50, 100, 500+) of historically available games verses their gross incomes, the base dollar value of each feature and/or set of features can be determined. As new games are released, they can be analyzed to keep the data current, while, if necessary, old games no longer deemed relevant can be filtered out. Value of each feature or set of features can be determined for all games, or can be determined by genre (for example, feature X in genre A might be worth $20,000 in predictive sales, while the same feature X in genre B might be worth $50,000 in predictive sales).

FIG. 7 is a schematic 700 depicting aspects of extending from reports 710 through an analysis 720 to provide guidance 730 to designers, publishers, marketers, investors, and possibly others. In some cases, reports 250 and 270 are given directly to feedback recipients 290. In other cases, guidance is given to the feedback recipients. In this particular instance, reports 710 include the examples of FIGS. 250A-250I, but could include additional or alternative reports (not shown).

With respect to content, all commercial aspects of guidance are contemplated, including for example, providing expectations with respect to income, sales volume, one or more temporally related price points, and number of subscriptions. Guidance can additionally or alternatively include one or more of providing a risk assessment score or other risk analysis, feature assessment prevalence, market placement, business model analysis, dynamic trend analysis, clustered pattern recognition, and image analysis.

Guidance 730 can take any suitable form, including for example:

-   -   Consultations and conferences 730A. Here, feedback recipients         can receive individual consultations on the reports generated         for their evaluation game or can attend conferences where they         receive guidance advice/analysis of the reports and data         generated from large amounts of historically available games.     -   Recommendations 730B. Here, feedback recipients can receive         recommendations in written and/or graphic format.         Recommendations make use of the analysis and suggest a course of         action for the feedback recipients to take.     -   Risk analysis 730C. Here, feedback recipients can receive risk         analysis on their evaluation game. Risk analysis can be provided         in the form of a risk assessment score or other risk analysis;         based on the feature sets, implementation methodology as well as         feature occurrence frequency and quantity, when compared to         other similar historically available games, to provide basic         risk assessment or a specific risk assessment score on a risk         assessment index.     -   Analyzed reports 740D. Here, feedback recipients can receive         analyzed reports, providing both the reports with corresponding         numeric, graphic and written data and analysis of the reports         specific to evaluation games, genres, the industry or even         specific features or groups of features.

FIGS. 8A-8G are sample reports derived from analysis of historical games. Here, there is no comparison per se, against an evaluation game. Readers will appreciate that these reports are similar to several of those in FIGS. 6A-I.

Thus, specific embodiments and applications of systems & methods for analyzing electronically embodied games have been disclosed. It should be apparent, however, to those skilled in the art that many more modifications besides those already described are possible without departing from the inventive concepts herein. The inventive subject matter, therefore, is not to be restricted except in the spirit of the appended claims. Moreover, in interpreting both the specification and the claims, all terms should be interpreted in the broadest possible manner consistent with the context. In particular, the terms “comprises” and “comprising” should be interpreted as referring to elements, components, or steps in a non-exclusive manner, indicating that the referenced elements, components, or steps may be present, or utilized, or combined with other elements, components, or steps that are not expressly referenced. Where the specification claims refers to at least one of something selected from the group consisting of A, B, C . . . and N, the text should be interpreted as requiring only one element from the group, not A plus N, or B plus N, etc. 

1. A game analysis system comprising: a feature database storing feature data related to known games, the feature data including game genre; and an analysis tool comprising a processor and computer readable memory storing software instructions, the instructions causing the tool to: construct a multi-axis relationship chart of feature sets defined by user-defined features comprising at least one cloud from at least a portion of the known games from the feature database and plotted by game genre in relation to a user specified game feature criteria; identify a position of an evaluation game with respect to the at least one cloud; and present a report identifying the relationship of the evaluation game with respect to the at least one cloud.
 2. The system of claim 1, wherein the relationship chart comprises at least two axes.
 3. The system of claim 2, wherein the relationship chart comprises at least four axes.
 4. The system of claim 3, wherein the relationship chart comprises at least ten axes.
 5. The system of claim 1, wherein the at least one cloud comprises a scatter graph.
 6. The system of claim 1, wherein the relationship chart comprises at least two clouds.
 7. The system of claim 1, wherein the position falls within the at least one cloud, and the report indicates the evaluation game belongs to a genre cloud group.
 8. The system of claim 1, wherein the position falls outside the at least one cloud, and the report indicates the evaluation game as a breakout from specified genre cloud groups.
 9. The system of claim 1, wherein the position falls at a head of the at least one cloud, and the report indicates the evaluation game as part of a trend expanding the at least one cloud.
 10. The system of claim 9, wherein the trend indicates expansion of the cloud in a specific direction.
 11. The system of claim 1, wherein the position falls at a tail of the at least one cloud, and the report indicates the evaluation game as no longer part of the at least one cloud.
 12. The system of claim 1, wherein the report comprises multiple versions of the relationship chart constructed over time.
 13. The system of claim 12, wherein the report comprises a prediction on movement of the at least one cloud.
 14. The system of claim 1, wherein the report indicates the evaluation game falls into a new genre.
 15. The system of claim 1, wherein the report indicates the evaluation game has new types of features.
 16. The system of claim 1, wherein the evaluation game comprises a video game.
 17. The system of claim 1, wherein the user selected game feature criteria comprises at least one of the following: a time made available, a publisher, a developer, a title, a brand, a franchise, an absence of a feature, a feature frequency, and a restriction on content.
 18. The system of claim 1, wherein the at least one cloud comprises a known genre grouping.
 19. The system of claim 1, wherein the at least one cloud falls outside a known genre grouping. 